a theoretical study on the adsorption behaviors of ammonia molecule on n-doped tio2 anatase nanoparticles: applications to gas sensor devices

Authors

amirali abbasi

molecular simulation laboratory (msl), azarbaijan shahid madani university, tabriz, iran.سازمان اصلی تایید شده: دانشگاه شهید مدنی (azarbaijan shahid madani university)سازمان های دیگر: 2 computational nanomaterials research group, azarbaijan shahid madani university, tabriz, iran

3 department of chemistry, faculty of basic sciences, azarbaijan shahid madani university, tabriz, iran jaber jahanbin sardroodi

molecular simulation laboratory (msl), azarbaijan shahid madani university, tabriz, iran.سازمان اصلی تایید شده: دانشگاه شهید مدنی (azarbaijan shahid madani university)سازمان های دیگر: 2 computational nanomaterials research group, azarbaijan shahid madani university, tabriz, iran

3 department of chemistry, faculty of basic sciences, azarbaijan shahid madani university, tabriz, iran

abstract

we have performed density functional theory investigations on the adsorption properties of ammonia molecule on the undoped and n-doped tio2 anatase nanoparticles. we have geometrically optimized the constructed undoped and n-doped nanoparticles in order to fully understand the adsorption behaviors of ammonia molecule. for tio2 anatase nanoparticles, the binding site is preferentially located on the fivefold coordinated titanium sites. however, we have mainly studied the interaction of nh3 molecule over the fivefold coordinated titanium sites including the bond lengths, bond angles, adsorption energies, density of states (doss) and molecular orbitals. the results indicated that the adsorption of nh3 molecule on the n-doped nanoparticles is energetically more favorable than the adsorption on the undoped one, suggesting the strong adsorption of nh3 molecule on the n-doped nanoparticles. adsorption on the n-doped nanoparticles leads to the more stable and favorable complexes. our theoretical work represents that the n-doped nanoparticles have higher sensing capability than the pristine ones to remove the hazardous nh3 molecules from the environment.

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Journal title:
international journal of nano dimension

جلد ۷، شماره ۴، صفحات ۳۴۹-۳۵۹

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